<p>We plot the TE for six different / modification ratios (solid line). A higher / modification ratio causes the network to oscillate in the gamma frequency range and thus increases the power in the gamma frequency band (dashed line). Error bars indicate 95% confidence intervals; averaged over 100 trials.</p
<p>Stimulus-specific networks at different frequency bands: 3–7 Hz (theta), 8–13 Hz (alpha), 21–29 H...
<p>(a) Percent change of gamma and alpha band activity in the selected ROI in the LOC in the gamma a...
<p>Percent change from baseline of total gamma band activity from 200–700 ms at left and right occip...
<p>Network parameters are kept fixed. The TE increases as a function of gamma power. /, averaged ove...
<p>Information starts flowing after stimulus onset when, consequently, TE starts rising. The plot sh...
<p>Total high-frequency power averaged across left and right parietal electrodes (see Methods). Left...
<p>Differences of ERSP values between experimental conditions in gamma (43.0 Hz) frequency are plott...
<p>(a) Training success: Representation of the average change of gamma band activity (30–45 Hz) in e...
<p>a) Average absolute peak gamma frequency for each stimulus (left and right hemisphere combined); ...
The red line represents the coefficient from the observed network properties. The observed value is ...
<p>Percent changes in power from the P<sub>100</sub>N<sub>0</sub> condition for the gamma (A) and hi...
<p>Panel A depicts an increase 100–400 ms after S1 onset (dashed squares) before vs. after training,...
<p>The gamma passing rates were calculated with both the 3%/3 mm criterion (lower graph) and the 2%/...
<p>Plots of upper beta-band relative power (21–30 Hz). (A) Topographical map of the difference betwe...
<p>If the oscillations are strong in the gamma band (/), there is a clear phase shift between the tw...
<p>Stimulus-specific networks at different frequency bands: 3–7 Hz (theta), 8–13 Hz (alpha), 21–29 H...
<p>(a) Percent change of gamma and alpha band activity in the selected ROI in the LOC in the gamma a...
<p>Percent change from baseline of total gamma band activity from 200–700 ms at left and right occip...
<p>Network parameters are kept fixed. The TE increases as a function of gamma power. /, averaged ove...
<p>Information starts flowing after stimulus onset when, consequently, TE starts rising. The plot sh...
<p>Total high-frequency power averaged across left and right parietal electrodes (see Methods). Left...
<p>Differences of ERSP values between experimental conditions in gamma (43.0 Hz) frequency are plott...
<p>(a) Training success: Representation of the average change of gamma band activity (30–45 Hz) in e...
<p>a) Average absolute peak gamma frequency for each stimulus (left and right hemisphere combined); ...
The red line represents the coefficient from the observed network properties. The observed value is ...
<p>Percent changes in power from the P<sub>100</sub>N<sub>0</sub> condition for the gamma (A) and hi...
<p>Panel A depicts an increase 100–400 ms after S1 onset (dashed squares) before vs. after training,...
<p>The gamma passing rates were calculated with both the 3%/3 mm criterion (lower graph) and the 2%/...
<p>Plots of upper beta-band relative power (21–30 Hz). (A) Topographical map of the difference betwe...
<p>If the oscillations are strong in the gamma band (/), there is a clear phase shift between the tw...
<p>Stimulus-specific networks at different frequency bands: 3–7 Hz (theta), 8–13 Hz (alpha), 21–29 H...
<p>(a) Percent change of gamma and alpha band activity in the selected ROI in the LOC in the gamma a...
<p>Percent change from baseline of total gamma band activity from 200–700 ms at left and right occip...